UMLS:C0271742 - FACTA Search

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Query: UMLS:C0271742 (AAA)
3,032 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Cdc48/p97 AAA-ATPase functions in membrane fusion and ubiquitin-dependent protein degradation. Here, we show that, in yeast, Cdc48p interacts with three novel proteins, Cuil-3p, which contain a conserved ubiquitin-related (UBX) domain. Cui2p and Cui3p are closely related, interact with each other, and are localized at the perinuclear membrane. Cdc48p binds directly the UBX domain of Cui3p in vitro. Multiple deletions of the CUI1, CUI2 and CUI3 genes confer deficiency in sporulation and degradation of model ubiquitin-protein fusions. The Cuil-3 proteins were also found to interact with Ufd3p, a WD repeat protein known to associate with Cdc48p. Together, these results indicate that the Cuil-3 proteins form complexes that are components of the ubiquitin-proteasome system.
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PMID:Binding of Cdc48p to a ubiquitin-related UBX domain from novel yeast proteins involved in intracellular proteolysis and sporulation. 1475 38

The AAA ATPase p97/VCP is involved in many cellular events including ubiquitin-dependent processes and membrane fusion. In the latter, the p97 adaptor protein p47 is of central importance. In order to provide insight into the molecular basis of p97 adaptor binding, we have determined the crystal structure of p97 ND1 domains complexed with p47 C-terminal domain at 2.9 A resolution. The structure reveals that the p47 ubiquitin regulatory X domain (UBX) domain interacts with the p97 N domain via a loop (S3/S4) that is highly conserved in UBX domains, but is absent in ubiquitin, which inserts into a hydrophobic pocket between the two p97 N subdomains. Deletion of this loop and point mutations in the loop significantly reduce p97 binding. This hydrophobic binding site is distinct from the predicted adaptor-binding site for the p97/VCP homologue N-ethylmaleimide sensitive factor (NSF). Together, our data suggest that UBX domains may act as general p97/VCP/CDC48 binding modules and that adaptor binding for NSF and p97 might involve different binding sites. We also propose a classification for ubiquitin-like domains containing or lacking a longer S3/S4 loop.
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PMID:Structural basis of the interaction between the AAA ATPase p97/VCP and its adaptor protein p47. 1498 33

The AAA ATPase Cdc48/p97 together with its adaptors, Ufd1-Npl4, regulate membrane-related functions and mitotic spindle disassembly by directly binding to membrane-associated proteins or spindle assembly factors, modulating their interactions with membranes or spindles, respectively. Here, we discuss the possibility that the Cdc48/ p97-Ufd1-Npl4 complex has a more general role in mediating morphological transitions as the cell exits mitosis and enters G(1).
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PMID:The Cdc48/p97-Ufd1-Npl4 complex: its potential role in coordinating cellular morphogenesis during the M-G1 transition. 1500 22

p47 is a major adaptor molecule of the cytosolic AAA ATPase p97. The principal role of the p97-p47 complex is in regulation of membrane fusion events. Mono-ubiquitin recognition by p47 has also been shown to be crucial in the p97-p47-mediated Golgi membrane fusion events. Here, we describe the high-resolution solution structures of the N-terminal UBA domain and the central domain (SEP) from p47. The p47 UBA domain has the characteristic three-helix bundle fold and forms a highly stable complex with ubiquitin. We report the interaction surfaces of the two proteins and present a structure for the p47 UBA-ubiquitin complex. The p47 SEP domain adopts a novel fold with a betabetabetaalphaalphabeta secondary structure arrangement, where beta4 pairs in a parallel fashion to beta1. Based on biophysical studies, we demonstrate a clear propensity for the self-association of p47. Furthermore, p97 N binding abolishes p47 self-association, revealing the potential interaction surfaces for recognition of other domains within p97 or the substrate.
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PMID:Structure, dynamics and interactions of p47, a major adaptor of the AAA ATPase, p97. 1502 46

The hexameric ATPase, N-ethylmaleimide sensitive factor (NSF), is essential to vesicular transport and membrane fusion because it affects the conformations and associations of the soluble NSF attachment protein receptor (SNARE) proteins. NSF binds SNAREs through adaptors called soluble NSF attachment proteins (alpha- or beta-SNAP) and disassembles SNARE complexes to recycle the monomers. NSF contains three domains, two nucleotide-binding domains (NSF-D1 and -D2) and an amino terminal domain (NSF-N) that is required for SNAP-SNARE complex binding. Mutagenesis studies indicate that a cleft between the two sub-domains of NSF-N is critical for binding. The structural conservation of N domains in NSF, p97/VCP, and VAT suggests that a similar type of binding site could mediate substrate recognition by other AAA proteins. In addition to SNAP-SNARE complexes, NSF also binds other proteins and protein complexes such as AMPA receptor subunits (GluR2), beta2-adrenergic receptor, beta-Arrestin1, GATE-16, LMA1, rabs, and rab-containing complexes. The potential for these interactions indicates a broader role for NSF in the assembly/disassembly cycles of several cellular complexes and suggests that NSF may have specific regulatory effects on the functions of the proteins involved in these complexes. The structural requirements for these interactions and their physiological significance will be discussed.
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PMID:Multiple binding proteins suggest diverse functions for the N-ethylmaleimide sensitive factor. 1503 35

The 97-kDa valosin-containing protein (p97 or VCP) is a type-II AAA ( ATPases associated with a variety of activities) ATPases, which are characterized by possessing two conserved ATPase domains. VCP forms a stable homo-hexameric structure, and this two-tier ring-shaped complex acts as a molecular chaperone that mediates many seemingly unrelated cellular activities. The involvement of VCP in the ubiquitin-proteasome degradation pathway and the identification of VCP cofactors provided us important clues to the understanding of how this molecular chaperone works. In this review, we summarize the reported biological functions of VCP and explore the molecular mechanisms underlying the diverse cellular functions. We discuss the structural and biochemical studies, and elucidate how this sophisticated enzymatic machine converts chemical energy into the mechanical forces required for the chaperone activity.
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PMID:Molecular perspectives on p97-VCP: progress in understanding its structure and diverse biological functions. 1503 36

A class of inherited neurodegenerative diseases including Huntington's disease is caused by polyglutamine (polyQ) expansion in the responsible proteins. Pathology is typically associated with polyQ expansions of greater than 40 residues, and the longer the length of the expansion, the earlier the onset of disease. It has been reported that p97/VCP/Cdc48p, a member of AAA family of proteins, can bind to longer polyQ tracts. In Caenorhabditis elegans, two p97/VCP/Cdc48p homologues, C41C4.8 and C06A1.1, have been identified. Our results indicate that these p97/VCP/Cdc48p homologues have essential but redundant functions in C. elegans. To provide a model system for investigating the molecular basis of pathogenesis, we have expressed polyQ expansions fused to green fluorescent protein in the body wall muscle cells of C. elegans. When the repeats are longer than 40, discrete cytoplasmic aggregates are formed and these appear at an early stage of embryogenesis. The formation of aggregates was partially suppressed by co-expression of either C41C4.8 or C06A1.1. These results suggest that these p97/VCP/Cdc48p homologues, AAA chaperones, may play a protective role in polyQ aggregation.
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PMID:Analysis of the two p97/VCP/Cdc48p proteins of Caenorhabditis elegans and their suppression of polyglutamine-induced protein aggregation. 1503 55

We have previously shown that the Werner syndrome helicase, WRNp, a member of the RecQ helicase family, forms a tight molecular complex with the p97/Valosin containing protein (VCP), a member of the AAA (ATPases associated with diverse cellular activities) family of proteins. This interaction is disrupted by chemical agents that confer DNA damage, suggesting that VCP plays an important role in the signal-dependent release of WRNp from its nucleolar sequestration site. Here, we characterized the structural requirements for interactions between WRNp and VCP and for the nuclear localization of VCP. We discovered that VCP directly binds to the RQC (RecQ conserved) domain of WRNp, which is a highly conserved motif common to the RecQ helicase family. This interaction is ATP-dependent, suggesting that VCP plays a mechanistic role in releasing WRNp from the nucleolus. Immunohistochemical analysis of various VCP domains and mutated proteins expressed in vitro demonstrated that VCP may contain several hierarchical cellular localization motifs within its domain structure.
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PMID:Werner syndrome protein directly binds to the AAA ATPase p97/VCP in an ATP-dependent fashion. 1503 56

The AAA-ATPase p97/Cdc48 functions in different cellular pathways using distinct sets of adapters and other cofactors. Together with its adaptor Ufd1-Npl4, it extracts ubiquitylated substrates from the membrane for subsequent delivery to the proteasome during ER-associated degradation. Together with its adaptor p47, on the other hand, it regulates several membrane fusion events, including reassembly of Golgi cisternae after mitosis. The finding of a ubiquitin-binding domain in p47 raises the question as to whether the ubiquitin-proteasome system is also involved in membrane fusion events. Here, we show that p97-p47-mediated reassembly of Golgi cisternae requires ubiquitin, but is not dependent on proteasome-mediated proteolysis. Instead, it requires the deubiquitinating activity of one of its cofactors, VCIP135, which reverses a ubiquitylation event that occurs during mitotic disassembly. Together, these data reveal a cycle of ubiquitylation and deubiquitination that regulates Golgi membrane dynamics during mitosis. Furthermore, they represent the first evidence for a proteasome-independent function of p97/Cdc48.
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PMID:VCIP135 acts as a deubiquitinating enzyme during p97-p47-mediated reassembly of mitotic Golgi fragments. 1503

We describe an algorithm for finding particle images in cryo-EM micrographs. The algorithm starts from a crude 3D map of the target particle, computed from a relatively small number of manually picked images, and then projects the map in many different directions to give synthetic 2D templates. The templates are clustered and averaged and then cross-correlated with the micrographs. A probabilistic model of the imaging process then scores cross-correlation peaks to produce the final picks. We give quantitative results on two quite different target particles: keyhole limpet hemocyanin and p97 AAA ATPase. On these particles our automatic particle picker shows human performance level, as measured by the Fourier shell correlations of 3D reconstructions.
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PMID:Model-based particle picking for cryo-electron microscopy. 1506 83

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